CN1293989C - Zero-translation-three-rotation parallel mechanism for imaginary axis machine tool and robot - Google Patents
Zero-translation-three-rotation parallel mechanism for imaginary axis machine tool and robot Download PDFInfo
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- CN1293989C CN1293989C CNB200310106011XA CN200310106011A CN1293989C CN 1293989 C CN1293989 C CN 1293989C CN B200310106011X A CNB200310106011X A CN B200310106011XA CN 200310106011 A CN200310106011 A CN 200310106011A CN 1293989 C CN1293989 C CN 1293989C
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- revolute
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Abstract
The present invention provides a class (3 kinds) of 3 freedom of motion (zero-translation and three-rotation) parallel mechanisms. One kind of the three parallel mechanisms is composed of a dynamic platform, a static platform and three branches. The first branch is only composed of a spherical pair, the second branch is formed by connecting a plane 5 rod loop which is composed of two movable pairs and three revolving pairs with a revolving pair and a spherical pair in series, and the axial line of the revolving pair which is connected in series is coincident with the axial line of the revolving pair which is arranged at the middle of the 5 rod loop. The third branch is formed by connecting a movable pair and two spherical pairs in series. Components of both ends of each of the 3 branches are respectively fixedly combined on the dynamic platform and the static platform. Three rotation outputs of the dynamic platform can be controlled by driving the three movable pairs. The mechanism has a part of decoupling of movement input-output, which can realize part control and decoupling. The solution of each basic loop can be singly found in turn by kinematics, and each loop is just a quadratic analysis formula which is favorable to realize real-time control and on-line and off-line motion planning of a robot. The mechanism does not comprise a double spherical pair and a triple spherical pair and has the advantages of simple structure, convenient manufacture and assembly, etc. Thus, the mechanism can be used as an actuating mechanism for imaginary axis machine tools, robots, etc.
Description
Technical field
The present invention relates to the executing agency of a class lathe and robot etc., specifically, is to provide a class (3 kinds) 3DOF (zero translation three is rotated) novel parallel institution for parallel-connection structure virtual axis machine and parallel robot etc.
Background technology
The parallel-connection structure Digit Control Machine Tool is meant with the parallel institution to be the lathe of executing agency, and this lathe has been considered to the revolution of machine tool structure since the twentieth century.Developed the model machine (as the related lathe of the Variax type of U.S. Giddings andLewis company) of this lathe at present in states such as the U.S., Japan, the parallel institution that is adopted is traditional Stewart (Stewart) mechanism.The mechanism that position and the attitude of this control cutter in the space changes mainly is made up of pedestal, motion platform and connecting rod, is linked to each other by connecting rod between pedestal and the motion platform, and the connecting rod two ends are respectively ball pair and universal joint.There are 6 connecting rods in this mechanism, but the adjustable length of connecting rod by controlling the length of 6 connecting rods, changes the pose of cutter in the space.But this class mechanism has a lot of guardian techniques to fail to solve fully.As (1) forward kinematics solution difficulty (high dimensional nonlinear Algebraic Equation set); (2) the motion platform pose is the close coupling of input, is unfavorable for control; (3) mechanism's complexity makes its working space less etc.For this reason, document is arranged (as U.S.'s patent of invention: Multi-Degree-of-Freedom Mechanisms for Machine Tools and the Like, Tsai, L.W., UnitedStates Patent, Patent Number:5656905 (1997)) proposes with (3 translations 0 are rotated) parallel institution and (0 translation moving 3 is rotated) parallel institution combination replacement Steward mechanism, but (the 0 translation 3 is rotated) mechanism that is adopted is the two loop spherical mechanisms that 9 revolute pair axis meet at a bit, its complex structure, make, assembling is difficulty comparatively, working space is less, and the end effector attitude is found the solution complexity.
In a word, the development and the practicability of virtual axis machine and robot etc. need create the new architecture that is better than existing mechanism.
Summary of the invention
The object of the invention provides three kinds zero translation three one-rotation parallel mechanisms.
The 3-freedom parallel mechanism that one of the present invention's zero translation three is rotated, its composition comprises: moving platform, silent flatform and be connected in 3 branch roads between moving platform, the silent flatform, it is characterized in that: the 1st three revolute pairs of route are in series successively, and the axis of these three revolute pairs meets at a bit, and the revolute pair that wherein is positioned at these branch road two ends connects firmly with moving platform and silent flatform respectively; Article 2, identical with the 3rd line structure, all be in series successively by a revolute pair and two spherical pairs, the revolute pair and the spherical pair that wherein are positioned at these branch road two ends connect firmly with silent flatform and moving platform respectively.
Second zero 3-freedom parallel mechanism that translation three is rotated of the present invention, its composition comprises: moving platform, silent flatform and be connected in 3 branch roads between moving platform, the silent flatform, it is characterized in that: spherical pair of the 1st route constitutes, and its two ends connect firmly with silent flatform and moving platform respectively; Article 2, propping up connect a successively again revolute pair and spherical pair of two moving sets of route and the plane 5 rods circuit that three revolute pairs are formed constitutes, the wherein dead in line of the revolute pair in the middle of Chuan Lian revolute pair and 5 rods circuits, the spherical pair of series connection is positioned at an end of 5 rods circuits and connects firmly with moving platform, other two revolute pairs in 5 rods circuits except that middle revolute pair all are positioned at the other end of 5 rods circuits and all connect firmly with silent flatform, revolute pair in the middle of such 5 rods circuits and connect firmly between two revolute pairs on the silent flatform and form two branch branch roads respectively, two moving sets in described 5 rods circuits are connected on respectively on these two branch branch roads; Article 3, prop up moving sets of route and two spherical pairs and be in series, two spherical pairs that wherein are positioned at these branch road two ends connect firmly with dynamic and static platform respectively.
The 3rd zero 3-freedom parallel mechanism that translation three is rotated of the present invention, it is the mechanism of deriving of second invention mechanism, two revolute pairs that connect firmly with silent flatform that are the 2nd branch road of above-mentioned second parallel institution are substituted by two spherical pairs respectively, and two revolute pairs of the dead in line in the middle of described 5 rods circuits are substituted by a spherical pair.
The present invention is the novel parallel institution of a class 3DOF (zero translation three is rotated).Such mechanism has following characteristics:
(1) mechanism's moving platform has zero translation three rotation outputs, and non-desired motion is output as constant;
(2) motion of mechanism input---output has partly decoupled, can realize partly controlling decoupling zero; Accompanying drawing 3 mechanisms particularly, not only the position of moving platform has part control decoupling zero, and its attitude also has part control decoupling zero;
(3) kinematics analysis of accompanying drawing 2 and parallel institution shown in the accompanying drawing 3 can be found the solution separately each fundamental circuit successively, and each loop only is 2 analytic expressions, helps realizing the real-time control and online, the off-line motion planning of robot;
(4) traditional 3DOF sphere parallel mechanism has 9 revolute pairs and axis to meet at a bit.Accompanying drawing 1 mechanism only requires 3 revolute pair axis to meet at a bit, and accompanying drawing 2 does not exist a plurality of revolute pair axis to meet at a bit with accompanying drawing 3 mechanisms.
(5) two-fold, triple spherical pair are not contained in mechanism, and be simple in structure, working space is bigger.
In a word, the present invention is virtual axis machine, robot, fine motion operator etc., and the new architecture with These characteristics is provided, and is beneficial to the exploitation and the practicability of novel lathe, robot, fine motion operator.
Description of drawings
Fig. 1 is a schematic diagram of mechanism of the present invention.
Fig. 2 also is a kind of schematic diagram of mechanism of the present invention.
Fig. 3 is the mechanism of deriving of Fig. 2 parallel institution.
The specific embodiment
Accompanying drawing 1 is a schematic diagram of mechanism of the present invention.It is made up of moving platform (1), silent flatform (0) and 3 branch roads being connected between dynamic and static two platforms: article one is propped up three revolute pair (R of route
1, R
2, R
3) be in series successively, and the axis of these three revolute pairs meets at a bit, wherein is positioned at the revolute pair (R at these branch road two ends
3, R
1) connect firmly with moving platform (1) and silent flatform (0) respectively; Article 2, prop up revolute pair (R of route
4) and two spherical pair (S
5, S
6) be in series successively, wherein be positioned at the revolute pair (R at these branch road two ends
4) and spherical pair (S
6) connect firmly with silent flatform (0) and moving platform (1) respectively; Article 3, branch road is identical with the 2nd line structure, by a revolute pair (R
7) and two spherical pair (S
8, S
9) be in series successively, wherein be positioned at the revolute pair (R at these branch road two ends
7) and spherical pair (S
9) connect firmly with silent flatform (0) and moving platform (1) respectively and form.
Accompanying drawing 2 also is an another kind of schematic diagram of mechanism of the present invention.It is made up of moving platform (1), silent flatform (0) and 3 branch roads being connected between dynamic and static two platforms: the 1st 1 spherical pair (S of route
1) form, its two ends connect firmly with silent flatform (0) and moving platform (1) respectively; Article 2, prop up two moving sets (P of route
3, P
5) and 3 revolute pair (R
2, R
4, R
6) plane 5 rods circuit formed 1 the revolute pair (R that connects successively again
7) and 1 spherical pair (S
8) formation, wherein Chuan Lian revolute pair (R
7) and the middle revolute pair (R of 5 rods circuits
4) dead in line, the spherical pair (S of series connection
8) an end and moving platform (1) connect firmly the revolute pair (R in the middle of such 5 rods circuits
4) with connect firmly two revolute pair (R on silent flatform (0)
2, R
6) between form two branch branch roads respectively, two moving sets (P in described 5 rods circuits
3, P
5) be connected on respectively on these two branch branch roads; Article 3, prop up 1 moving sets (P of route
10) and two spherical pair (S
9, S
11) be in series, wherein be positioned at two spherical pair (S at these branch road two ends
11, S
9) connect firmly and form with moving platform (1), silent flatform (0) respectively.
Accompanying drawing 3 is the parallel institutions of deriving of accompanying drawing 2 parallel institutions.The the 1st, 3 branch road of accompanying drawing 3 is identical with accompanying drawing 2, and its 2nd branch road is that two revolute pairs that the 2nd branch road of accompanying drawing 2 and silent flatform are connected firmly are respectively by two spherical pair (S
2, S
6) substitute, two revolute pairs of the dead in line in the middle of 5 rods circuits are by a spherical pair (S
4) alternative forming.
Parallel institution shown in the accompanying drawing 2 can be considered the embodiment that the present invention is used for virtual axis machine, and its structure is summary of the invention and accompanying drawing 2 explanations as described above.Go up installation milling cutter (A) at moving platform (1), after each member scale parameter of mechanism is determined, control 3 moving sets (P
3, P
5, P
10) input motion, go up the direction of milling cutter (A) axis with regard to controllable brake platform (1).
Claims (3)
1. 3-freedom parallel mechanism that the zero translation that can be used for parallel machine and robot three is rotated, its composition comprises: moving platform, silent flatform and be connected in 3 branch roads between moving platform, the silent flatform, it is characterized in that: the 1st three revolute pairs of route are in series successively, and the axis of these three revolute pairs meets at a bit, and the revolute pair that wherein is positioned at these branch road two ends connects firmly with moving platform and silent flatform respectively; Article 2, identical with the 3rd line structure, all be in series successively by a revolute pair and two spherical pairs, the revolute pair and the spherical pair that wherein are positioned at these branch road two ends connect firmly with silent flatform and moving platform respectively.
2. 3-freedom parallel mechanism that the zero translation that can be used for parallel machine and robot three is rotated, its composition comprises: moving platform, silent flatform and be connected in 3 branch roads between moving platform, the silent flatform, it is characterized in that: spherical pair of the 1st route constitutes, and its two ends connect firmly with silent flatform and moving platform respectively; Article 2, propping up connect a successively again revolute pair and spherical pair of two moving sets of route and the plane 5 rods circuit that three revolute pairs are formed constitutes, the wherein dead in line of the revolute pair in the middle of Chuan Lian revolute pair and 5 rods circuits, the spherical pair of series connection is positioned at an end of 5 rods circuits and connects firmly with moving platform, other two revolute pairs in 5 rods circuits except that middle revolute pair all are positioned at the other end of 5 rods circuits and all connect firmly with silent flatform, revolute pair in the middle of such 5 rods circuits and connect firmly between two revolute pairs on the silent flatform and form two branch branch roads respectively, two moving sets in described 5 rods circuits are connected on respectively on these two branch branch roads; Article 3, prop up moving sets of route and two spherical pairs and be in series, two spherical pairs that wherein are positioned at these branch road two ends connect firmly with dynamic and static platform respectively.
3. according to the described parallel institution of claim 2, it is characterized in that: two revolute pairs that connect firmly with silent flatform of described the 2nd branch road are substituted by two spherical pairs respectively, and two revolute pairs of the dead in line in the middle of described 5 rods circuits are substituted by a spherical pair.
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CNB200310106011XA CN1293989C (en) | 2003-10-08 | 2003-10-08 | Zero-translation-three-rotation parallel mechanism for imaginary axis machine tool and robot |
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CNB200310106011XA CN1293989C (en) | 2003-10-08 | 2003-10-08 | Zero-translation-three-rotation parallel mechanism for imaginary axis machine tool and robot |
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CN1528567A CN1528567A (en) | 2004-09-15 |
CN1293989C true CN1293989C (en) | 2007-01-10 |
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Families Citing this family (4)
Publication number | Priority date | Publication date | Assignee | Title |
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CN102806557B (en) * | 2012-08-23 | 2015-03-11 | 常州大学 | Single-degree-of-freedom three-dimensional movement mechanism |
CN102785241B (en) * | 2012-08-23 | 2015-03-11 | 常州大学 | Single degree-of-freedom three-dimensional motion device |
CN102825597A (en) * | 2012-09-19 | 2012-12-19 | 常州大学 | Three-rotation parallel-connection motion device with positive solution of position analysis |
CN108858156A (en) * | 2018-08-31 | 2018-11-23 | 常州大学 | A kind of sphere parallel mechanism of zero degree of coupling and mobile decoupling |
Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2075574U (en) * | 1990-10-27 | 1991-04-24 | 东北重型机械学院秦皇岛分校 | Parallel connection multi-ring structure robot |
US5656905A (en) * | 1995-04-03 | 1997-08-12 | Tsai; Lung-Wen | Multi-degree-of-freedom mechanisms for machine tools and the like |
CN2309932Y (en) * | 1997-10-08 | 1999-03-10 | 东北大学 | Three-freedom parallel robot mechanism |
CN1306899A (en) * | 2000-02-02 | 2001-08-08 | 燕山大学 | Four-freedom spatial parallel robot mechanism |
CN1389327A (en) * | 2002-07-10 | 2003-01-08 | 杨廷力 | Two-translation and one-rotation parallel mechanismsfor virtual axis machine tools, robot, etc. |
CN1417003A (en) * | 2002-12-04 | 2003-05-14 | 北方交通大学 | Parallel robot mechanism with three-freedom rotating platform |
CN1112282C (en) * | 2000-04-21 | 2003-06-25 | 清华大学 | Spatial three-freedom parallel robot mechanism |
-
2003
- 2003-10-08 CN CNB200310106011XA patent/CN1293989C/en not_active Expired - Fee Related
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2075574U (en) * | 1990-10-27 | 1991-04-24 | 东北重型机械学院秦皇岛分校 | Parallel connection multi-ring structure robot |
US5656905A (en) * | 1995-04-03 | 1997-08-12 | Tsai; Lung-Wen | Multi-degree-of-freedom mechanisms for machine tools and the like |
CN2309932Y (en) * | 1997-10-08 | 1999-03-10 | 东北大学 | Three-freedom parallel robot mechanism |
CN1306899A (en) * | 2000-02-02 | 2001-08-08 | 燕山大学 | Four-freedom spatial parallel robot mechanism |
CN1112282C (en) * | 2000-04-21 | 2003-06-25 | 清华大学 | Spatial three-freedom parallel robot mechanism |
CN1389327A (en) * | 2002-07-10 | 2003-01-08 | 杨廷力 | Two-translation and one-rotation parallel mechanismsfor virtual axis machine tools, robot, etc. |
CN1417003A (en) * | 2002-12-04 | 2003-05-14 | 北方交通大学 | Parallel robot mechanism with three-freedom rotating platform |
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